EMBEDDED SYSTEMS

Overview

An embedded system is a computer system with a dedicated function within a larger mechanical or electrical system, often with real-time computing constraints. It is embedded as part of a complete device often including hardware and mechanical parts. Embedded systems control many devices in common use today.

The key characteristic, however, is being dedicated to handle a particular task. Since the embedded system is dedicated to specific tasks, design engineers can optimize it to reduce the size and cost of the product and increase the reliability and performance. Some embedded systems are mass-produced, benefiting from economies of scale.

Physically, embedded systems range from portable devices such as digital watches and MP3 players, to large stationary installations like traffic lights, factory controllers, and largely complex systems like hybrid vehicles, MRI, and avionics. Complexity varies from low, with a single microcontroller chip, to very high with multiple units, peripherals and networks mounted inside a large chassis or enclosure.

Appins Embedded training strategy is 70% Practical and 30% Theory. Appin also gives Real time project in Embedded Systems so that students get what exactly happening in Embedded Industry. In this course our main focus would be as to how we can interface Various Devices using microcontrollers. Microcontrollers have a vast number of applications. This Embedded course would expand ones potential to explore and develop new devices interfaced using the microcontrollers. The Training is a Flagship workshop of Appin Technology Lab. Students interested to make their career in Robotics or Embedded Technologies always join the type of training. Training is conducted with development boards and the practicals. The Projects are executed using the real time Embedded development board.

Who’s hiring?

The jobs in the embedded industry, exist in the early phases of product life cycle like design, verification and validation, architecture support, functional test and rapid control prototyping.

According to Microchip Technology Inc., elaborates, “As new technologies emerge, embedded systems are being integrated into more products. Therefore engineering students with knowledge related to embedded systems will find that their skills will become increasingly valuable to a number of different sectors including, but not limited to, automotive, medical, consumer electronics, aerospace, military, and much more. Also, the current trend in the industry seems to be expanding the applications that utilise embedded systems. With India’s wealth of engineering talent, I believe manufacturers will take advantage of this and continue to hire from this region.”

With India becoming the hub for semiconductor design, the embedded industry offers tremendous job opportunities countrywide. If you plan to enter into this field, you need not worry about the respective job prospects. We require tons of embedded professionals to create all that is possible—be it in telecom, networking, automotive, medical and so on.

Syllabus

EMBEDDED SYSTEMS

PIC Controller

Introduction to Embedded systems

Introduction to PIC controller

Architecture of PIC 16F877A

Pin Configuration

Communication Protocols

Embedded C

PRACTICALS

ARM Controller

INTRODUCTION TO ARM PROCESSOR

LPC2148 MICROCONTROLLER PIN DETAILS, MEMORY

SYSTEM CONTROL

PIN CONFIGURATION

TIMER, ADC, DAC, UARTs (INTERFACING MODULE)

I2C, SPI, PWM, RTC, WATCHDOG TIMER (COMMUNICATION PROTOCOL)

Embedded C PROGRAMMING

PRACTICALS

Fees: Rs 15000/- in single payment

Payment : You can make online Payment through Airtel Money on the mobile number 9597271533

Duration

Appin Embedded System Design and Development Course has 3 independent / Combo and Diploma levels.

Job Opportunities

Millions of products in our everyday life today have some form of embedded software in them. Home appliances, automobiles, wireless devices and consumer electronics devices are just a few examples. In this embedded domain involves, software development, design and manufacture and even re-engineering of new and existing reference designs, development of device drivers, wired and wireless stacks and even porting of network protocols.

To design tomorrow's Embedded System today industry needs over a million professionals in this field by 2016. Because...